Campuses:
Twin Cities campus
This is archival data. This system was retired as of August 21, 2023 and the information on this page has not been updated since then. For current information, visit catalogs.umn.edu.
Twin Cities Campus Neuroscience Medical School Link to a list of faculty for this program. Contact Information Department of Neuroscience, 6-145 Jackson Hall, 321 Church Street S.E., Minneapolis, MN 55455 (612-626-6474; fax: 612-626-6460) Email: neurosci@umn.edu Website: http://www.neuroscience.umn.edu
Neuroscience is an interdisciplinary field of inquiry. The objects of this inquiry, the brain and nervous system, are sufficiently complex and unique among biological systems to require experimental and analytical approaches that cross the traditional boundaries of molecular and cell biology, behavioral biology, biochemistry, genetics, pharmacology, physiology, and psychology. In some instances, neuroscientific inquiry may also encompass computer science, information processing, engineering, physics, and mathematics. Program Delivery
Prerequisites for Admission For an online application or for more information about graduate education admissions, see the General Information section of this website. Program Requirements Use of 4xxx courses toward program requirements is permitted under certain conditions with adviser approval. Required Coursework (4 credits) All students pursuing the minor must take one of the following courses: NSC5461-Cellular and Molecular Neuroscience (3.0 cr) NSC5561-Systems Neuroscience (4.0 cr) Electives (8 credits) All students pursuing the minor must take at least eight elective credits, selected in consultation with the Neuroscience director of graduate studies. NSC5203-Basic and Clinical Vision Science (3.0 cr) NSC5461-Cellular and Molecular Neuroscience (3.0 cr) NSC5462-Neuroscience Principles of Drug Abuse (2.0 cr) NSC5561-Systems Neuroscience (4.0 cr) NSC5661-Behavioral Neuroscience (2.0 cr) NSC8026-Neuro-Immune Interactions (3.0 cr) NSC8111-Quantitative Neuroscience (3.0 cr) NSC8208-Neuropsychopharmacology (3.0 cr) NSC8211-Developmental Neurobiology (2.0-4.0 cr) NSC8320-Readings in Neurobiology (1.0-4.0 cr) NSC8411-Teaching in Neuroscience (1.0 cr) NSC8481-Advanced Neuropharmaceutics (4.0 cr) NSCI4101-Development of the Nervous System: Cellular and Molecular Mechanisms (3.0 cr) NSCI4105-Neurobiology Laboratory I (3.0 cr) NSCI4201-Neuroscience of Drug Abuse (3.0 cr) NSCI4501-Neurodegenerative Diseases, Mechanisms to Therapies (3.0 cr) NSCI5101-Neurobiology I: Molecules, Cells, and Systems (3.0 cr) NSCI5501-Neurodegenerative Diseases, Mechanisms to Therapies (3.0 cr) NSCI6110-Neuroscience for Dental Students (2.0 cr) NSCI6112-Medical Neuroscience for Professional Students (5.0 cr) Program Sub-plans Students are required to complete one of the following sub-plans. Students may not complete the program with more than one sub-plan. Doctoral Masters |
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Twin Cities Campus:
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Information current as of June 25, 2024
NSC5461 - Cellular and Molecular Neuroscience
Credits: | 3.0 [max 4.0] |
Grading Basis: | A-F or Aud |
Typically offered: | Every Fall |
Lectures by team of faculty, problem sets in important physiological concepts, discussion of original research papers.prereq: NSc grad student or instr consent
NSC5561 - Systems Neuroscience
Credits: | 4.0 [max 4.0] |
Grading Basis: | A-F or Aud |
Typically offered: | Every Fall |
Principles of organization of neural systems forming the basis for sensation/movement. Sensory-motor/neural-endocrine integration. Relationships between structure and function in nervous system. Team taught. Lecture, laboratory.prereq: NSc grad student or instr consent
NSC5203 - Basic and Clinical Vision Science
Credits: | 3.0 [max 3.0] |
Typically offered: | Spring Even Year |
Basic and clinical vision science.prereq: instr consent
NSC5461 - Cellular and Molecular Neuroscience
Credits: | 3.0 [max 4.0] |
Grading Basis: | A-F or Aud |
Typically offered: | Every Fall |
Lectures by team of faculty, problem sets in important physiological concepts, discussion of original research papers.prereq: NSc grad student or instr consent
NSC5462 - Neuroscience Principles of Drug Abuse
Credits: | 2.0 [max 2.0] |
Course Equivalencies: | Phcl 5462/Nsc 5462 |
Typically offered: | Periodic Spring |
Current research on drugs of abuse, their mechanisms of action, characteristics shared by various agents, and neural systems affected by them. Offered biennially, spring semester of even-numbered years.prereq: instr consent
NSC5561 - Systems Neuroscience
Credits: | 4.0 [max 4.0] |
Grading Basis: | A-F or Aud |
Typically offered: | Every Fall |
Principles of organization of neural systems forming the basis for sensation/movement. Sensory-motor/neural-endocrine integration. Relationships between structure and function in nervous system. Team taught. Lecture, laboratory.prereq: NSc grad student or instr consent
NSC5661 - Behavioral Neuroscience
Credits: | 2.0 [max 4.0] |
Grading Basis: | A-F or Aud |
Typically offered: | Every Spring |
Neural coding/representation of movement parameters. Neural mechanisms underlying higher order processes such as memorization, memory scanning, and mental rotation. Emphasizes experimental psychological studies in human subjects, single cell recording experiments in subhuman primates, and artificial neural network modeling.prereq: Grad NSc major or grad NSc minor or instr consent
NSC8026 - Neuro-Immune Interactions
Credits: | 3.0 [max 3.0] |
Course Equivalencies: | MVB 8361/NSc 8026/Psy 8026 |
Typically offered: | Periodic Fall & Spring |
Regulatory systems (neuroendocrine, cytokine, and autonomic nervous systems) linking brain and immune systems in brain-immune axis. Functional effects of bidirectional brain-immune regulation. Course is offered fall of even-numbered years.prereq: 5561, MicB 4131
NSC8111 - Quantitative Neuroscience
Credits: | 3.0 [max 3.0] |
Grading Basis: | A-F or Aud |
Typically offered: | Every Spring |
Principles of experimental design and statistical analysis in neuroscience research. Includes an introduction to computer programming for data analysis using both classic and modern quantitative methods.
NSC8208 - Neuropsychopharmacology
Credits: | 3.0 [max 3.0] |
Grading Basis: | A-F or Aud |
Typically offered: | Fall Even Year |
Methodologies to study relationships between drugs and biochemical, behavioral, and neurophysiological consequences. Functional biogenic amine, peptidergic, other pathways. How manipulations alter neuronal function or behavior. Feedback mechanisms, induction, inhibition. Reinforcement of, tolerance to, or dependence on drugs of abuse: stimulants, hallucinogens, depressants, opiates. Student presentations.prereq: [5212, 6112, PSY 5021, PSY 5061] or instr consent
NSC8211 - Developmental Neurobiology
Credits: | 2.0 -4.0 [max 4.0] |
Grading Basis: | A-F or Aud |
Typically offered: | Every Spring |
How neuronal types develop. Emphasizes general mechanisms. Experimental data demonstrating mechanisms.prereq: Neuroscience grad student or instr consent
NSC8320 - Readings in Neurobiology
Credits: | 1.0 -4.0 [max 16.0] |
Typically offered: | Every Fall & Spring |
Topics in neurobiology and neurophysiology.
NSC8411 - Teaching in Neuroscience
Credits: | 1.0 [max 4.0] |
Grading Basis: | S-N or Aud |
Typically offered: | Periodic Spring |
Grad students serve as primary instructors in 4151 and work with fellow students and faculty mentors to design curriculum, classroom sessions, exams, and course evaluations.prereq: instr approval
NSC8481 - Advanced Neuropharmaceutics
Credits: | 4.0 [max 4.0] |
Course Equivalencies: | CMB 8481/NSc 8481/Phm 8481 |
Grading Basis: | A-F or Aud |
Typically offered: | Fall Even Year |
Delivery of compounds to central nervous system (CNS) to activate proteins in specific brain regions for therapeutic benefit. Pharmaceutical/pharmacological issues specific to direct drug delivery to CNS.prereq: instr consent
NSCI4101 - Development of the Nervous System: Cellular and Molecular Mechanisms
Credits: | 3.0 [max 3.0] |
Course Equivalencies: | Nsci 4100/Nsci 8211 |
Grading Basis: | A-F only |
Typically offered: | Every Spring |
This course will extend students? understanding of fundamental concepts of biology and neuroscience through study of the cellular and molecular mechanisms that underlie development of the nervous system. Neurodevelopment provides a context in which to study processes active in many biological functions and diseases. Students will learn about each of the major cellular processes involved in development of the nervous system such as cell division and cell migration, and will learn about the function of molecules and signaling pathways active in each process. Human developmental pathologies will be studied as a means to better understand normal developmental processes. Some lectures will focus on current research, and students will be expected to read some scientific literature.
NSCI4105 - Neurobiology Laboratory I
Credits: | 3.0 [max 3.0] |
Grading Basis: | A-F or Aud |
Typically offered: | Every Fall |
Principles, methods, and laboratory exercises for investigating neural mechanisms and examining experimental evidence.
NSCI4201 - Neuroscience of Drug Abuse
Credits: | 3.0 [max 3.0] |
Grading Basis: | A-F only |
Typically offered: | Every Spring |
The use and abuse of illicit drugs is an ongoing and insidious world problem. Neuroscience research has contributed importantly to understanding drug abuse as a disease of the nervous system. The goal of this course will be to provide a clinical characterization of drug abuse from a human perspective. From there animal models of drug use and addiction will be discussed as a basis for research examining cellular and molecular mechanisms of the effects of drugs on the nervous system. As all drugs of abuse have a common neurobiology, that neurobiology will be examined from a circuit perspective that will include the underlying molecular control. Collectively students should develop a comprehensive view of the problem of drug addiction including prospects for the development of neurobiologically-based therapeutics.
NSCI4501 - Neurodegenerative Diseases, Mechanisms to Therapies
Credits: | 3.0 [max 3.0] |
Grading Basis: | A-F only |
Typically offered: | Every Fall |
With a rapid increase in population aging in western educated industrialized rich democratic (WEIRD) societies, neurodegenerative disorders such as Alzheimers disease have become an alarming health priority due to the current absence of disease-modifying therapies. The objective of this course is to acquire a fundamental appreciation for the most common degenerative disorders of the nervous system as well as to integrate central notions shared across these diseases and emerging concepts in the field
NSCI5101 - Neurobiology I: Molecules, Cells, and Systems
Credits: | 3.0 [max 3.0] |
Grading Basis: | A-F or Aud |
Typically offered: | Every Fall & Spring |
This course discusses the basic principles of cellular and molecular neurobiology and nervous systems. The main topics include: Organization of simple networks, neural systems and behavior; how the brain develops and the physiology and communication of neurons and glia; the molecular and genetic basis of cell organization; ion channel structure and function; the molecular basis of synaptic receptors; transduction mechanisms and second messengers; intracellular regulation of calcium; neurotransmitter systems, including excitation and inhibition, neuromodulation, system regulation and the cellular basis of learning, memory and cognition. The course is intended for students majoring in neuroscience, but is open to all students with the required prerequisites.
NSCI5501 - Neurodegenerative Diseases, Mechanisms to Therapies
Credits: | 3.0 [max 3.0] |
Course Equivalencies: | Nsci 4501/Nsci 5501 |
Grading Basis: | A-F only |
Typically offered: | Every Fall |
With a rapid increase in population aging in western educated industrialized rich democratic (WEIRD) societies, neurodegenerative disorders such as Alzheimer?s disease have become an alarming health priority due to the current absence of disease-modifying therapies. The objective of this course is to acquire a fundamental appreciation for the most common degenerative disorders of the nervous system as well as to integrate central notions shared across these diseases and emerging concepts in the field.
NSCI6110 - Neuroscience for Dental Students
Credits: | 2.0 [max 2.0] |
Grading Basis: | A-F or Aud |
Typically offered: | Every Spring |
Structure/function of the human nervous system. Lectures, reading assignments.prereq: Credit will not be granted if credit has been received for: : 5110; Dental student
NSCI6112 - Medical Neuroscience for Professional Students
Credits: | 5.0 [max 5.0] |
Typically offered: | Every Spring |
Molecular, cellular, and systems neuroscience as related to medicine. Lecture, lab.prereq: BioC 3021, Biol 4004, instr consent; intended for non-medical professional students